Nanozymes with atomically dispersed metal centers: Structure-activity relationships and biomedical applications

Nanozymes has become a research hotspot in biomedical field because of its great enzyme-like catalytic per-formance and biological characteristics. As a potential substitute for natural enzyme, nanozymes have the ad-vantages of low cost, strong catalytic performance and good stability. The discovery of nanozymes with atomically dispersed metal centers has attracted the focus of nanozymes research to the atomic level. Compared with nanoparticles nanozymes, the single-atom nanozymes with atomically dispersed single-metal sites and the atomically dispersed cluster nanozymes with atomically dispersed multi-metal sites have higher atomic utili-zation rate and thus have stronger catalytic performance. In addition, atomically dispersed active centers are beneficial to the regulation of catalytic performance and the study of structure-activity relationship. At present, the research on nanozymes with atomically dispersed metal centers has achieved many important results and showed considerable application value in biomedical field. This review presents the research progress of nanozymes with atomically dispersed metal centers and systematically summarizes their structure-activity re-lationships and biomedical applications. Finally, we discuss the current opportunities and challenges of nano-zymes with atomically dispersed metal centers.

Automated summary

Nanozymes, with their great enzyme-like catalytic performance and biological characteristics, have become a research hotspot in the biomedical field. The discovery of nanozymes with atomically dispersed metal centers has brought research to the atomic level, leading to higher atomic utilization rate and stronger catalytic performance. Atomically dispersed active centers are beneficial for the regulation of catalytic performance and the study of structure-activity relationships. Currently, nanozymes with atomically dispersed metal centers have shown significant application value in the biomedical field.